[1]魏司凯,常勇.浮动滚子推杆盘形凸轮机构的传动性能评价与第Ⅰ类尺寸综合问题[J].集美大学学报(自然科学版),2023,28(6):541-553.
WEI Sikai,CHANG Yong.The Transmission Performance Evaluation and Class I Size Synthesis Task of Floating Roller Pushrod-disc Cam Linkage Mechanism[J].Journal of Jimei University,2023,28(6):541-553.
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浮动滚子推杆盘形凸轮机构的传动性能评价与第Ⅰ类尺寸综合问题(PDF)
《集美大学学报(自然科学版)》[ISSN:1007-7405/CN:35-1186/N]
- 卷:
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第28卷
- 期数:
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2023年第6期
- 页码:
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541-553
- 栏目:
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船舶与机械工程
- 出版日期:
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2023-11-28
文章信息/Info
- Title:
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The Transmission Performance Evaluation and Class I Size Synthesis Task of Floating Roller Pushrod-disc Cam Linkage Mechanism
- 作者:
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魏司凯; 常勇
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集美大学海洋装备与机械工程学院,福建 厦门 361021
- Author(s):
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WEI Sikai; CHANG Yong
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School of Marine Equipment and Mechanical Engineering,Jimei University,Xiamen 361021,China
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- 关键词:
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传动性能评价; Ⅰ类尺寸综合问题; 功率传动节点; 泛压力角; 瞬时/整程区域套
- Keywords:
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: evaluation on transmission performance; class I size synthesis task; power transmission node; general pressure angle; instantaneous/whole region set
- 分类号:
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- DOI:
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-
- 文献标志码:
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A
- 摘要:
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以德国某高速印刷机送纸机构为研究对象,提出“功率传动节点”和“泛压力角”新概念,得到送纸机构存在“第一、第二功率传动节点”和“第一、第二泛压力角α1和α2”的结论。 通过“释放滚子中心C”提出浮动滚子推杆盘形凸轮机构的一般型及其第Ⅰ类尺寸综合问题的科学准确描述,揭示关键构件的受力汇交特征,提出“瞬时/整程满足第二泛压力角α2≤[α2]条件”特别是“瞬时/整程满足第一、第二泛压力角α1≤[α1]∩α2≤[α2]条件”滚子中心的求解原理、路径和机构最小尺寸的求解方法,较为圆满解决了浮动滚子推杆盘形凸轮机构的传动性能评价与第Ⅰ类尺寸综合问题,并用算例进行了验证。
- Abstract:
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Taking the paper feeding mechanism of a high speed printing machine in Germany as the object of study,two new concepts,“power transmission node” as well as “general pressure angle”,and their theoretical bases are proposed.The two new concepts are universal for studying and analyzing the power transfer point location and performance evaluation,according to the important conclusions of “the first and second power transmission nodes” and “the first and second general pressure angle α1 and α2”obtained for the paper feeding mechanism.By “releasing the roller center C”,the scope of the study is made more general and systematic.A scientific and accurate description of the Class-I size synthesis of the task of the floating roller pushrod-disc cam linkage mechanism is proposed.By revealing the force convergence characteristics of the key links,the innovative solution principle and solution paths for “the instantaneous/whole range satisfies the second general pressure angle α2≤[α2],α1≤[α1]∩α2≤[α2] condition” of the roller center and the minimum size solution of the mechanism are proposed.The transmission performance evaluation and Class I size synthesis task for the floating roller pushrod-disc cam linkage mechanism is satisfactorily studied and solved.
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更新日期/Last Update:
2024-02-29